After germination, plants go through two phases of vegetative development - juvenile and adult - before entering the reproductive phase. These phases have varying characteristics and timing across plant species, making it challenging to determine if different vegetative traits correspond to the same or distinct developmental processes. miR156 has been identified as the primary regulator of vegetative phase change in plants, with the miR156-SPLs (SQUAMOSA Promoter Binding Protein-Likes) module playing a crucial role in regulating age-related agronomic traits in various crops. Such traits include disease resistance, optimal plant breeding, and secondary metabolism regulation. However, it is unknown whether miR156-SPLs contribute to the critical agronomic traits of pepper (Capsicum annuum L.). Thus, this study seeks to identify miR156 and SPLs genes in pepper, analyze their evolutionary links with model plants, and confirm their expression patterns using gene expression assays. The study also examines the relationship between miR156 expression levels in two cultivars of pepper and specific traits associated with the juvenile-to-adult transition. The results indicate that leaf shape and the number of leaf veins are correlated to the timing expression of miR156. Our study represents an important resource for identifying age-dependent agronomic traits in pepper and lays the foundation for future systematic regulation of miR156-SPLs to advance pepper development.
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